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Bio-Psychological Aspects of Pain

Bio-Psychological Aspects of Pain. Biology of Pain. Pain is a “sensory and emotional” experience (p.226; Merskey, 1986) Medical community attempts to explain as either mental or physical Medical community view is misleading for the athlete

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Bio-Psychological Aspects of Pain

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  1. Bio-Psychological Aspects of Pain

  2. Biology of Pain • Pain is a “sensory and emotional” experience (p.226; Merskey, 1986) • Medical community attempts to explain as either mental or physical • Medical community view is misleading for the athlete • One’s perception of their pain results in many cognitive-emotional experiences

  3. Pain Experience • Multistage process built on a complex anatomic network and chemical mediators that produce pain called nociception

  4. Nociception TRANSDUCTION TRANSMISSION MODULATION PERCEPTION

  5. TRANSDUCTION COMPONENT • Noxious stimuli (injury) are translated into electrical activity at the sensory endings of the nerves (site of injury) Pain triggers two sets of receptors: High threshold mechanoreceptor Polymodal receptors

  6. How is pain triggered? • Two sets of receptors are activated due to a injury • Mechanorecptors • High threshold receptors (activated when high noxious signal) which sends signals with relative speed • Polymodal receptors • Respond to thermal, chemical and mechanical stimuli and are relatively slow in transmission • Continue to fire after cessation of painful stimuli

  7. Sensitivity to Pain • Unfortunately these receptors have a lower threshold of response with repeated exposed similar stimuli. • Higher sensitivity to pain-producing stimuli • Pain occurs in ordinarily non-painful stimuli • “This process is called Sensitization

  8. Transmission Component • The electrical activity (impulses) are propagated (sent) through out the sensory nervous system

  9. Transmission Component • Pain is transmitted via peripheral nerves to the spinal cord • Spinal cord acts as neurosensory switching station • Information from periphery is received centrally (spinal cord) and from the brain via the descending track • All this information converges using similar and common neurosensory pathways.

  10. Gate Control Theory of Pain (Melzack and Wall, 1965) The processing center in the spinal cord may either decrease or increase the intensity of pain as a neuroelectrical phenomenon and so result in the perception of relatively lesser or greater pain than initially signed.

  11. Importance of Gate Theory • Explains why various therapeutic modalities ranging from cryotherapy to ultrasound to acupuncture to massage, controls one’s efficacy of pain.

  12. Modulation Component • Sensory impulses are modified (received, registered, and evaluated on severity and site) neurally involving the central cortical track and peripherial sensory inputs.

  13. Modulation • The pain signal in spinal cord ascends to the higher cortical centers of brain which evoke a emotional-reaction called: • One’s Perception of Pain

  14. Perception Component Transmission, transduction, and modulation culminates in a cognitive-emotional (perceptual) experience of pain.

  15. Perception of Pain • Based upon summation of inputs • Awareness of seriousness of injury • Meaning of the injury • Present state of mind

  16. Pain & Injury Triggers: • Psychological coping, • Awareness of functional limits on athletic ability, • Memory of similar painful events, • Self-assessment of injury and, • Social psychological reaction by teammates, coaches, etc.

  17. Proven Techniques in Assessing Pain • Have the athlete rate on a scale 0-10 the intensity of pain. • Have the athlete indicate the quality of pain (burning, stabbing, aching, etc) • Daily self-report “pain at its worst” and “pain at is least” • Identify specific situations that increase or decrease pain (specific movements or exercises)

  18. Pain Scale

  19. Pain Management • Common pain management treatments are: • Ice • Untrasound • Transcultaneous Electrical Neural Stimulation(TENs) • Stimulates the nerves (sympathec) & produces endorphins production • Diathermy(deep heat in shortwave, microwave, or therapeutic ultrasound to simulate neural pathways) • Electrical Muscular Stimulation(EMS) • Acupressure, • Massage, and • Psychological Pain management techniques.

  20. Psychological Pain Management Strategies • Deep breathing (relaxation breathing) • Muscle relaxation (progressive relaxation) • Meditation-(Autogenic relaxation) • Therapeutic massage • Associative & Dissociative Focus

  21. Pain Focusing • Dissociative strategy • Directing your attention from the pain • Patients are not paying attention to their pain; they will perceive less pain. • Association strategy • Directing the attention on the pain

  22. Pain Focusing • Dissociative strategy are most frequently used by injured patients. • Appear to be more effective way with coping with pain than associative. • But during a rehab session, the dissociative strategies is not recommended by AT and PT’s because it may lead to poor form and a lack of effort on the part of the injured athlete.

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